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It depends on the magnitude of the force and the mass of the object
Because the buoyant force is the result of different pressure at different depths, and there is no difference in pressure horizontally.
force?
Basically, any object that has been pushed against a force (and didn't return yet). For example, an object liftet against the gravitational force; a compressed spring; an object pushed against an electric or magnetic force.
opposite and equal force against you.
It depends on the magnitude of the force and the mass of the object
It depends on the magnitude of the force and the mass of the object
It depends on the magnitude of the force and the mass of the object
If there is no force against motion,applied force is zero. If there is force against motion,applied force is equal and opposite to that force.
If there is no force against motion,applied force is zero. If there is force against motion,applied force is equal and opposite to that force.
Because the buoyant force is the result of different pressure at different depths, and there is no difference in pressure horizontally.
force?
Basically, any object that has been pushed against a force (and didn't return yet). For example, an object liftet against the gravitational force; a compressed spring; an object pushed against an electric or magnetic force.
The force of gravity is the same, whether the object doesn't move at all, whether it moves horizontally, vertically, diagonally, or whatever. The force is about 9.8 newton/kilogram.Therefore, if no other forces act on the object, it will accelerate downward at a rate of 9.8 meters/second squared - again, no matter how the object is moving at any given time. Under gravity (and assuming no other forces are significant - such as air resistance), an object that initially moves horizontally will have the tendency to move in a parabola.
Friction. Opposing Force
opposite and equal force against you.
If you apply the force directly horizontally on a flat plane, then putting the object on an inclined plane and applying force the same direction as before will still be applying force directly horizontally. I'm not sure that this question is quite as specific as the answer you require. ~Phoenix Flentge